Multi-station non-stop printing processing system and processing technique

ABSTRACT

The invention relates to a non-stop printing processing system with a plurality of stations, comprising a first processing unit and a second processing unit; each of the processing units comprises a set of film supply devices, a pressure roller, a stripped roller and a cured device; the pressure roller, the stripped roller and the cured device are mounted by a lift type, the system comprises an impression barrel, when a substrate is processed, the impression barrel is positioned under the substrate, a processed substrate is positioned between a processing unit processing the substrate and the impression barrel. The invention also relates to a non-stop printing process with a plurality of stations. The invention utilizes one or more film supply devices of a processing device to alternately supply a film to achieve the effect of automatic roll change and simulation positioning.

TECHNICAL FIELD OF THE INVENTION

The invention relates to the mechanical apparatus field of a printing package and a material process, specifically to a non-stop printing processing system with a plurality of stations, and a non-stop printing processing process with a plurality of stations.

TECHNICAL BACKGROUND OF THE INVENTION

At present, in the fields of printing packaging and material processing, there are many surface processing processes including glazing and gilt stamped. The basic definition of the glazing is that a transparent material overlays the printed surface to protect and strengthen decorative effect. There are many glazing processes, for example, to enhance the smoothness of a surface, there is a calendering process that the surface of a dried paint is heated and pressurized; to enhance elegant effect, there is a process that a surface is coated to have a man-polished effect; to finely emboss the surface of a material and carry out holographic process for the surface, there must be a process that a mold is manufactured to coordinate embossing and casting equipment to emboss and cast the surface of an object to be printed. These processes all have their own characteristics and are capable of protecting or enhancing the visual effect for these materials or printed images and texts. In addition, the gilt stamped process is also widely used in packaging and printing industries and frequently processed on printed or packaged articles by multiple times. Therefore, both of the glazing and gilt stamped processes are widely used in packaging and decoration as well as the surface processing for pictures, posters and other printed materials. However, during the processing of the surface, when all or specified area of the surface of a material or a printed object is processed by the combination of a specific coating process (for example, offset printing, gravure, flexo, screen printing, etc.) and a specific paint, there may be consistent surface effect, for example, they have both the effects of “elegant surface” or “bright surface”. If it is a particle surface effect or an embossed surface effect, even if the particle effect or the embossed effect is not exactly the same, they can still be regarded as random effects where the same shading rather than a positioning image appears in the designated area. With processing processes for a printed surface pointed out in China patent applications 01142655.1, 200410024849,9, 200420023306 and 200420071245.5, the device also can achieve the same random surface effect of a shading for different designated areas on a substrate when a single process is carried out as described previously. In addition, for the aspect of cramping, the published China patent applications 200610006830.0, 200620060491.X, 201110137504.4, 201110378502.4, 201310128775.2, 01242885.X, 200710075411.7, 201010231830.7 as well as British and American patents GB2368313, U.S. Pat. No. 5,603,259 all do not disclose any precisely positioning requirement achieved by tensioning, positioning, embossing or hot stamping film.

In the past, if a surface processing process is utilized to achieve one or more positioning glazing or gilt stamped effects on the surface of the same material, the processing operation shall be carried out on the specified area of the surface of the material by the number of relative times and the number of relative effect. For example, the surface of the same substrate shall achieve glossy, matt-polished and holographic effects. Or the surface of the same substrate shall achieve gilt stamped, silver stamped and laser stamped effects. For this issue, and for the problem of the limitations of the above processes or materials themselves and the problem that one or more different effects can be achieved only by carrying out one or more processing processes by one or more stations, published China patent application 200,710,044,182.2 adopts a stretching apparatus and an electric eye positioning apparatus to achieve precise positioning, making continuous glazing and gilt stamped purposes be achieved. Meanwhile, it also addresses the problem that an apparatus or a system whether is glazing or gilt stamped in the current market only has a single function and additionally each has one or more defects.

Although the published China patent application 200,710,044,182.2 can utilize a positioning function to reduce the processes, but there still are problems that the downtime causes the waste of time and material and roll change causes the waste of labor. In an increasingly competitive today, people treat time as gold costs, and labor and materials are increasingly expensive. Therefore, it is very necessary to develop an invention which can resolve the problems of low productivity, high production cost and high rejection rate caused by the downtime and the roll change.

SUMMARY OF THE INVENTION

The purpose of the invention is to overcome the deficiencies of the prior art, combining the technology of different fields such as processing machinery and automatic control, the invention provides a non-stop printing processing, system with a plurality of stations, and a non-stop printing processing process with a plurality of stations, the processing system can cast the texture or a vapor deposition layer on the film to a substrate or carry out cramping for them to the substrate in the case of non stop, to achieve the saving in manpower, reduce consumption and improve efficiency; furthermore, as the apparatus has small volume, the apparatus can be connected to and coordinate a current single-line or reel printing apparatus or glazing machine production lines to achieve the advantages of reducing, processes, production costs and time as well as improving production efficiency; in addition, the processing system still has positioning and processing functions.

The invention solves its technical problems with the following technical solutions:

A non-stop printing processing system with a plurality of stations includes a first processing unit and a second processing unit, each the processing unit includes a set of film supply devices, a pressure roller, a stripped roller and a cured device, which are independent, each the film supply device includes a winding device and an unwinding, device which are independently driven and rotated positively and negatively, the pressure roller, the stripped roller and the cured device are mounted by a lift type; the system includes an impression barrel, when a substrate is processed, the impression barrel is positioned under the substrate, a processed substrate is positioned between a processing unit processing the substrate and the impression barrel.

Furthermore, in the above printing processing, system, the number of the impression barrel is one, the first processing unit and the second processing unit share the impression barrel.

Furthermore, in the above printing processing system, the impression barrel includes a first impression barrel and a second impression barrel, the first processing unit uses the first impression barrel, the second processing unit uses the second impression barrel,

Furthermore, in the above printing processing system, each the processing unit still includes a main wall plate and a sub wall plate, the sub wall plate can move on the main wall plate, the pressure roller, the stripped roller and the cured device of each the processing unit are all mounted on their own sub wall plate.

Furthermore, in the above printing, processing system, rails are provided between the main wall plate and the sub wall plate, the sub wall plate coordinates the rails to move up and down by a lift control device, so that the film processed by each the independent processing unit conveniently operates together with the impression barrel in different directions without friction because the sub wall plate can move upwards and cause the film to be broken away from the impression barrel.

Furthermore, in the above printing processing system, the cured device is fixedly mounted on the sub wall plate.

Furthermore, in the above printing processing system, the processing unit still includes the lift control device of the pressure roller and the lift control device of the stripped roller, with the lift control device of the pressure roller and the lift control device a the stripped roller, the pressure roller and the stripped roller can be mounted on the sub wall plate by moving up and down, respectively.

Furthermore, in the above printing processing system, the lift, control device can be an air cylinder, a mechanical cam or an electronic cam.

Furthermore, in the above printing processing system, one positioning tensile device is provided among the pressure roller, the winding device and the unwinding device by the film supply device in each the processing, unit respectively to ensure the stable tension of the film in the winding and unwinding directions.

Further in the above printing, processing system, the first processing unit is provided therein with at least one positioning tensile device of the film of a distinguishable positioning mark and/or different textures, the positioning processing system consists of at least one the positioning tensile device.

Furthermore, in the above printing processing system, the second processing unit is provided therein with at least one the positioning tensile device of the film of the distinguishable positioning and/or the different textures, the positioning processing system consists of at least one the positioning tensile device.

Furthermore, in the above printing processing system, the positioning tensile device includes: a first electric eye device provided as at least one positioning or electric device which can detect the distinguishable positioning mark an edge on the film, a first set compaction rollers with an independent power two of which are taken as one set to be pressed with each other and rotate at the speed less than of equal to the linear speed of the impression barrel, and a second set of the compaction rollers with the independent power two of which are taken as one set to be pressed with each other.

Furthermore, in the above printing processing system, the processing unit is connected to and mounted with one or more reel printing devices, a single-piece printing device or a coating unit device.

Furthermore, in the above printing processing system, when the processing unit is connected with one single-piece printing device, a gripper of the processing unit on the impression barrel adopts the gripper with a vacuum suction device.

Furthermore, the above printing processing system is provided to operate based on the following steps: in Step 1, the first processing unit presses fitly the impression barrel to be processed, at this time, the unwinding device of the first processing unit unwinds, the winding device winds, the second processing unit presses separately the impression barrel and is standby; in Step 2, the first processing unit continues to press fitly the impression barrel to be processed, at this time, the unwinding device of the second processing unit unwinds, the winding device winds, and prepares to press fitly the impression band; in Step 3, the second processing unit presses fitly the impression barrel to be processed, the unwinding device of the second processing unit unwinds, the winding device winds, the first processing unit presses separately the impression barrel and rewinds, at this time, the winding device of the first processing unit unwinds, the unwinding device winds; in Step 4, the second processing unit continues to press fitly the impression barrel to be processed, at this time, the unwinding device of the first processing unit unwinds, the winding device winds, and prepares to press fitly the impression barrel; in Step 5, the first processing unit presses fitly the impression barrel to be processed the unwinding device of the first processing unit unwinds, the winding device winds, the second processing unit presses separately the impression barrel and rewinds: at this time, the winding device of the second processing unit unwinds, the unwinding device winds; circulation is carried out from the above Step 1 to Step 5, and vice versa.

Furthermore, the above printing processing system is provided as: in Step 2, when the unwinding device of the first processing device is to unwind and be close to an axis while the winding device is to fully wind, the unwinding device and the winding device of the second processing unit start to be accelerated until when the linear speed of the film is the same with that of the rotation speed of the impression barrel, the second processing unit presses fitly the impression barrel; in Step 4, when the unwinding device of the second processing device is to unwind and be close to an axis while the winding device is to fully wind, the unwinding device and the winding device of the first processing unit start to be accelerated until when the linear speed of the film is the same with that of the rotation speed of the impression barrel, the first processing unit presses fitly the impression barrel.

Furthermore, the above printing processing system is provided to operate based on the following steps: the substrate is transported or pulled to the first processing unit, the pressure roller of the first processing unit fits the impression barrel, that is, the first processing unit presses fitly the impression barrel, the film supplied by the unwinding device of the first processing unit fits the substrate at the rotation and combination point of the pressure roller and the impression barrel of the first processing unit, the film is stripped from the surface of the substrate and rewound back by the winding device of the first processing unit; when the unwinding device in the first processing unit is to unwind and be close to the axis while the winding device is to fully wind, the unwinding device and the winding device in the second processing device start to be accelerated, when the linear speed of the film is the same with that of the rotation speed of the impression barrel, the pressure roller, the stripped roller and the cured device which are fixed on the sub wall plate of the second processing unit are lowered at the same time, so that the pressure roller fits the impression barrel, that is, the second processing unit presses fitly the impression barrel; at this time, the pressure roller, the stripped roller and the cured device which are in the first processing unit and fixed on the sub will plate are lifted at the same time, when the sub wall plate of the first processing unit moves until the straight line between the bottom of the pressure roller and that of the stripped roller is higher than the highest point of the impression barrel, the unwinding device of the first processing unit completes the winding before the unwinding device of the second processing unit completes the unwinding, and is still to wait for the unwinding device in the second processing unit, when the unwinding device in the second processing unit is to unwind and be close to the axis while the winding device is to fully wind, the unwinding unit of the firs processing unit restarts to unwind, forming the circulation of the processing unit between the above two phases.

Furthermore, in the above printing processing system, the film supplied by each the film supply device has different transport lines, respectively.

A non-stop printing processing process with a plurality of stations includes a first processing unit and a second processing unit, providing each the processing unit comprising a set of film supply devices, a pressure roller, a stripped roller and a cured device which are independent; providing each the film supply device comprising a winding device and an unwinding device which are independently driven and can be rotated positively and negatively; providing the pressure roller, the stripped roller and the cured device which can be mounted by a lift type; providing an impression barrel, when a substrate is processed, the impression barrel is positioned under the substrate, a processed substrate is positioned between a processing unit processing the substrate and the impression barrel.

Furthermore, the above printing processing process still includes: providing the pressure roller, the stripped roller and the cured device which are in each the processing unit and mounted on a sub wall plate which can move on a main wall plate; wherein rails are provided between the main wall plate and the sub wall plate, so that the sub wall plate coordinates the rails mounted on the main wall plate to move up and down by a lift control device, so that the film processed by each the independent processing unit conveniently operates together with the impression barrel in different directions without friction because the sub wall plate can move upwards and cause the film to be broken away from the impression barrel.

Furthermore, the above printing processing process in Step 1, the first processing unit presses fitly the impression barrel to be processed, at this time, the unwinding device of the first processing unit unwinds, the winding device winds, the second processing unit presses separately the impression barrel and is standby; in Step 2, the first processing unit continues to press fitly the impression barrel to be processed, at this time, the unwinding device of the second processing unit unwinds, the winding device winds, and prepares to press fitly the impression barrel: in Step 3, the second processing unit presses fitly the impression barrel to be processed, the unwinding device of the second processing unit unwinds, the winding device winds, the first processing unit presses separately the impression barrel and rewinds, at this time, the winding device of the first processing unit unwinds, the unwinding device winds; in Step 4, the second processing unit continues to press fitly the impression barrel to be processed, at this time, the unwinding device of the first processing unit unwinds, the winding device winds, and prepares to press fitly the impression barrel; in Step 5, the first processing unit presses fitly the impression barrel to be processed, the unwinding device of the first processing unit unwinds, the winding device winds, the second processing unit presses separately the impression barrel and rewinds; at this time, the winding device of the second processing unit unwinds, the unwinding device winds; circulation is carried out from the above Step 1 to Step 5, and vice versa.

Furthermore, the above printing processing process still includes: in Step 2, when the unwinding device of the first processing device is to unwind and be close to an axis while the winding device is to fully wind, the unwinding device and the winding device of the second processing unit start to be accelerated until when the linear speed of the film is the same with that of the rotation speed of the impression barrel, the second processing unit presses fitly the impression barrel; in Step 4, when the unwinding device of the second processing device is to unwind and be close to an axis while the winding device is to fully wind, the unwinding device and the winding device of the first processing unit start to be accelerated until when the linear speed of the film is the same with that of the rotation speed of the impression barrel, the first processing unit presses fitly the impression barrel.

The invention still relates to a non-stop printing processing process with a plurality of stations, comprising the following steps: (1), a substrate with an uncured paint is transported or pulled to a first processing unit, a film material with a surface gain supplied by the unwinding device of the first processing unit completely fits the substrate at the rotation and combination point of the pressure roller and the impression barrel, at this time, the first processing unit presses fitly the impression barrel; (2) after a plastic film with the surface gain and the substrate with the uncured paint pass through the rotation and combination point of the pressure roller and the impression barrel and ensure the substrate and the film to be fitted completely, the film and the substrate which are fitted are transported to be below the cured device, the cured device is utilized to cure a paint on the substrate through the plastic film, at this time, the paint which is cured and stereotyped will be shown on the substrate by the way opposite to the direction of the surface grain of the film; the film is then stripped from the surface of the substrate and rewound back by the winding device of the first processing unit; finally, a transport substrate enters into the device and transports the substrate with a processed surface onto a material-receiving unit.

The invention still relates to a non-stop printing processing process with a plurality of stations, comprising the following steps: (1) a substrate with an uncured adhesive is transported or pulled to a first processing unit by a transport device or a pulling device, a hot stamping film supplied by an unwinding device of the first processing unit completely fits the substrate at the rotation and combination point of a pressure roller and an impression barrel, at this time, the first processing unit presses fitly the impression barrel; (2) after the hot stamping film and the substrate with an uncured adhesive pass through the rotation and combination point of the pressure roller and the impression barrel and ensure the substrate and the hot stamping film to be fitted completely, the film and the substrate which are fitted are transported to be below a cured device, the cured device is utilized to cure the adhesive on the substrate through a plastic film, at this nine, the cured adhesive is bonded with a sprayed aluminium layer on the surface of the film; the hot stamping film is then stripped from the surface of the substrate and wound back by a winding device of the first processing unit, meanwhile, the sprayed aluminium layer feeling like metal is shown on the substrate where the adhesive is originally placed; finally, a transport substrate enters into the device and transports the substrate with the processed surface onto a material-receiving unit.

Furthermore, the process includes the following steps: when the unwinding device in the first processing unit is to unwind and be close to the axis while the winding device is to fully wind, the unwinding device and the winding device in the second processing device start to be accelerated by a system via the control of a computation or inductive switch of a computer, when the linear speed of the film is the same with that of the rotation speed of the impression barrel, the pressure roller, a stripped roller and the curing device which are fixed on a sub wall plate of a second processing unit are lowered at the same time, so that the pressure roller fits the impression barrel, that is, the second processing unit presses fitly the impression barrel; at this time, the pressure roller, the stripped roller and the curing device which are in the first processing unit and fixed on the sub wall plate are lifted at the same time, when the sub wall plate moves until the straight line between the bottom of the pressure roller and that of the stripped roller is higher than the highest point of the impression barrel, a first unwinding device completes the winding before the unwinding device of a second processing unit completes the unwinding, and is still to wait for the unwinding device in the second processing unit, when the second processing unit is to complete the unwinding, the first processing unit restarts to unwind, forming a cycle operation between the processing units.

Furthermore, the process includes the following steps: when the substrate is too thick and causes the pressure roller to jump when the front edge of the substrate enters into the combination point, under the control of the computation or inductive switch of the computer, before the substrate enters into a film supply device, the pressure roller is lifted to the height corresponding to the thickness of the substrate.

Furthermore, the process still includes the following steps: the above processing process is combined with a reel printing device, a single-piece printing device or a glazing unit device to be applied.

Furthermore, the process still includes the following steps: the first processing unit and the second processing unit share one the impression band to mutually carry out the above processes.

Furthermore, the process still includes the following steps: the first processing unit and the second processing unit utilize their own the impression barrels to mutually carry out the above processes.

Besides the contents disclosed in the description and other parts and the contents understood by those skilled in the art after they read the description, the advantages and beneficial effects of the invention at least still include all or any one of the followings:

1. The non-stop printing and processing system with a plurality of stations of the invention has more than one separately operating processing unit, each the processing unit has the unwinding device and the winding device, furthermore, the winding device and the unwinding device both have respective separate drive mechanisms, so that they can operate independently and be turned both positively and negatively achieving functional transformation between unwinding and winding. The prior art does not have this motivation, for example, the existing China patent applications 200910037225.3, 200910037193.7, 700820147297.4, 200810026337.4, 200420071245.5 and China patent applications 200620041821, 200410015978.1, 200710044182.2 all only have one unwinding device and one winding device, in addition, the winding device is used only to wind while the unwinding device is only used to unwind, the drive manners of the above winding device and the unwinding device of the invention are no mentioned; although China patent application 201120026325.9 proposes an unwinding device with double stations and a winding device with the double stations, after the first volume of paper in two the unwinding devices is released, the second volume of the paper still takes a paper path taken by the first volume of the paper, that is, there is only one transport line, the invention is different from the above in that a film in each film supply device has its own transport line, so as to facilitate uninterrupted printing process, the design idea of the invention is fundamentally different from that in the prior art, and made progress by geometric level in technical effect.

2. The pressure roller, the stripped roller and the cured device of the non-stop printing processing system with a plurality of stations of the invention all are provided to be a lifting mechanism and can move up and down, to achieve automatic roll change without stopping the machine. Although the existing china patent application 200910037225.3 relates to a gap adjustment mechanism, and the gap between a stripped guide roller and a pressing downwardly barrel is adjusted based on the specific thickness of a printing material and the thickness of a pressing film, the application is used to solve the quality problem produced during the stripped process. A pressure roller in China patent application 200710044182.2 can be mounted on one module of a sub wall block which can move upwards to be between the pressure roller and a stripped roller and of which a straight line is higher than the highest point of an impression barrel, however, the application is to solve the waste problem or the problem that the uncured portion of the surface of a substrate is scratched under the case that a system is not used or need not be pressed fitly, however, the invention is to realize the steering and exchange of a winding device and an unwinding device, and to avoid the friction produced between a film and an impression barrel.

3. The invention discloses a non-stop printing processing system with a plurality of stations and a non-stop printing processing process with a plurality of the stations, and utilizes one or more film supply devices of a processing device to alternately supply a film, to achieve the effect of automatic roll change without stopping the machine, and further have the effects of simulation and positioning, thus solving the problems of the wastes of time, materials and labor due to downtime and roll change, reducing production costs and rejection rates, and improving production efficiency, it can be used for a variety of high value-added products.

DRAWINGS OF THE INVENTION

FIG. 1 is a structural diagram under the case that a first processing unit presses fitly and is processed, a second processing unit presses separately and is standby, and the first processing unit and the second processing unit share one impression barrel;

FIG. 2 is a structural diagram under the case that a first processing unit presses fitly and unwinds to an end, a second processing unit presses fitly at the same speed, and the first processing unit and the second processing unit share one impression barrel;

FIG. 3 is a structural diagram under the case that a second processing unit presses fitly and is processed, a first processing unit presses separately and rewinds at a high speed, and the first processing unit and the second processing unit share one impression barrel;

FIG. 4 is a structural diagram under the case that a first processing unit presses fitly and is processed, a second processing unit presses separately and rewinds at a high speed, and the first processing unit and the second processing unit share one impression barrel;

FIG. 5 is a structural diagram under the case that a first processing unit presses fitly and is processed, a second processing unit presses separately and is standby, and the first processing unit and the second processing unit use their own impression barrels;

FIG. 6 is a structural diagram under the case that a first processing unit presses fitly and unwinds to an end, a second processing unit presses fitly at the same speed, and the first processing unit and the second processing unit use their own impression barrels;

FIG. 7 is a structural diagram under the case that a second processing unit presses fitly and is processed, a first processing unit presses separately and is standby, and the first processing unit and the second processing unit use their own impression barrels:

FIG. 8 is a structural diagram under the case that a first processing unit presses fitly and is processed, a second processing unit presses separately and rewinds at a high speed, and the first processing unit and the second processing unit use their own impression barrels;

FIG. 9 is a structural diagram under the case that a first processing unit presses fitly and is processed, a second processing unit presses separately and is standby, and the first processing unit and the second processing unit use their own impression barrels, and having positioning and tensing functions;

FIG. 10 is a structural diagram under the case that a first processing unit presses fitly and unwinds to an end, a second processing unit presses fitly at the same speed, and the first processing unit and the second processing unit use their own impression barrels, and having positioning and tensing functions;

FIG. 11 is a structural diagram under the case that a second processing unit presses fitly and is processed, a first processing unit presses separately and rewinds at a high speed, and the first processing unit and the second processing unit use their own impression barrels, and having positioning and tensing functions:

FIG. 12 is a structural diagram under the case that a first processing unit presses fitly and is processed, a second processing unit presses separately and rewinds at a high speed, and the first processing unit and the second processing unit use their own impression barrels, and having positioning and tensing functions;

FIG. 13 is a structural diagram of an example under the case that one coating unit is provided between a first processing unit and a second processing unit, and the first processing unit and the second processing unit use their own impression barrels;

FIG. 14 is a structural diagram of a processing system carrying out surface processing with the combination of a processing unit and an offset printer of the invention.

FIG. 15 is an enlarged diagram of the portions of a pressure roller, a stripped roller and a cured device in a processing unit of the invention.

DESCRIPTION OF REFERENCE NUMBERS

1—Unwinding Device of Film of First Processing Unit; 2—Winding Device of Film of First Processing Unit; 3—Cured Device of First Processing Unit; 4—Pressure Roller of First Processing Unit; 5—Stripped Roller of First Processing Unit; 6—Impression Barrel; 7—Substrate With Uncured Paint; 8—Unwinding Device of Film of Second Processing Unit; 9—Winding Device of Film of Second Processing Unit; 10—Cured Device of Second Processing Unit; 11—Pressure Roller of Second Processing Unit; 12—Stripped Roller of Second Processing Unit; 13—Second Impression Barrel; 14—Set A of Pressure Rollers of First Processing Unit; 15—First Electric Eye Device of First Processing Unit; 16—Set B of Pressure Rollers of First Processing Unit; 18—Set A of Pressure Rollers of Second Processing Unit; 19—First Electric Eye Device of Second Processing Unit; 20—Set B of Pressure Rollers of Second Processing Unit; 22—Coating Unit; 23—offset Printing Unit; 24—Lift Control Device of Stripped Roller; 25—Lift Control Device of Sub Wall Plate; 26—Lift Control Device of Stripped Roller; 27—Main Wall Plate; 28—Sub Wall Plate.

EMBODIMENTS OF THE INVENTION

The invention is further described with the following examples which are only descriptive but not limited and cannot hence limit the protection scope of the invention.

FIG. 1 shows an example of a non-stop printing processing system with a plurality of stations disclosed by the invention, the system includes one or more processing units, in the example, the system includes a first processing unit and a second processing unit.

The above first processing unit has a set of film supply devices, a pressure roller 4, a stripped roller 5 and a curing device 3 which are independent; The second processing unit has a set of the film supply devices, the pressure roller 11, the stripped roller 5 and the curing device 10 which are independent. The cured device is positioned between its own pressure roller and the stripped roller, is an ultraviolet or electron beam cured device and can have the number of one or more than one. Those skilled in the art shall understand that the function of the stripped roller is to separate a film in an unwinding device from a substrate.

The film supply device of the above first processing unit includes a winding device 2 and an unwinding device 1 which are independently driven and rotated positively and negatively; The film supply device of the second processing unit also includes the winding device 9 and the unwinding device 8 which are independently driven and rotated positively and negatively. As the winding device and the unwinding device can rotate positively and negatively, the winding device also can unwind while the unwinding device also can unwind.

The pressure rollers, the stripped rollers and the cured devices of the above first processing unit and the second processing unit are all mounted by a lift type, the lift-type mounting herein indicates that they can be lifted relative to the substrate to be processed. As shown in FIG. 15, the pressure roller 4, the stripped roller 5 and the cured device 3 in the first processing unit are mounted on a set of sub wall plates 28. The sub wall plate 28 can be moved on a main wall plate 27. Illustratively, rails are provided between the main wall plate 27 and the sub wall plate 28, the sub wall plate 28 coordinates the rails mounted on the main wall plate 27 by a lift control device 25 to realize up-and-down movement, that is, the lift control device 25 can control the lift of the pressure roller, the stripped roller 5 and the cured device 3, so that between the first processing units 28, as the sub wall plate 28 can move upwards and causes the film to be capable of breaking away from an impression barrel, the film and the impression barrel conveniently operate in different directions without friction.

Illustratively, the pressure roller 4 and the stripped roller 5 can be mounted on the sub wall plate 28 by the lift control devices 24 and 26, and hence also can be lifted independently relative to the sub wall plate, the benefit that the pressure roller and the stripped roller are provided with the independent lift control device is at least that under the case that the sub wall plate is not lifted, the lift positions of the pressure roller and the stripped roller can be independently adjusted to achieve more convenient adjustment; additionally, as the sub wall plate, the pressure roller, and the stripped roller have their own lift control devices, the problem that the single lift control device controls the lift and hence causes the lift journey to be too long to produce poor stability still can be effectively avoided. The cured device 3 can be directly fixed and mounted on the sub wall plate 28.

The lift control device can be an air cylinder, a mechanical cam or an electronic cam. The second processing unit and the first processing unit have the same structure, and hence are not repeated again. The main wall plates of two the processing units can be the same main wall plate and also can be their own different main wall plates.

The printing processing system of the example still includes the impression barrel 6 positioned below the substrate. In the example, two the processing units share one impression barrel. In the possible case, it is very advantageous that they share one impression barrel, because this can obviously reduce the volume of the printing processing system, make the system be conveniently connected with other units, and greatly reduce costs.

FIG. 5 shows a structural diagram that two the processing units use one the impression barrel respectively, wherein the second processing unit is provided therein with the impression barrel 13. When installed space is relatively small, one the impression barrel is used, as the impression barrel is provided thereon with two the processing units, the impression barrel with a big radius is needed, so that the barrel coordinates two the processing devices to complete the processing of the substrate; when the installed space is big enough, two the impression barrels with a small radius can be used, as each the impression barrel is provided thereon with one the processing device, the processing of the substrate is completed. Whether one the impression barrel with the big radius or two the impression barrels with the smaller radius can be used to complete the printing of a single piece or a reel. However, this surface processing system of one the impression barrel with the big radius is more suitable for the printing of the reel; however, this surface processing system of two the impression barrels with the small radius is more suitable for the printing of the single piece.

As shown in the example of FIG. 9, one positioning tensile device is provided among the pressure roller, the winding device and the unwinding device by the film supply device in each the processing unit respectively to ensure the stable tension of the film in the winding and unwinding directions. Alternatively, the first processing unit and the second processing unit are provided therein with at least one the positioning tensile device of the film of a distinguishable positioning mark and/or different textures, the positioning processing system consists of at least one the positioning tensile device. As shown in FIG. 9, in the film supply device of the first processing unit, the positioning tensile device is provided between the pressure roller and the unwinding device, the positioning tensile device consists of a first electric device 15, set A of compaction rollers and set B of the compaction rollers 16. The first electric eye device is provided as at least one positioning or electric device which can detect the distinguishable positioning mark and an edge on the film. For set A of the compaction rollers with an independent power, they two are taken as one set to be pressed with each other and rotate at the speed less than or equal to the linear speed of the impression barrel, for set B of the compaction rollers with the independent power, they two are taken as one set to be pressed with each other. Similarly in the film supply device of the second processing unit, the positioning tensile device is provided between the pressure roller and the unwinding device, the positioning tensile device consists of a first electric device 19, set A of the compaction rollers 18 and set B of the compaction rollers 20. Its structure is the same with the structure of the positioning tensile device in the first processing unit. The positioning processing device at least can realize that a plastic sheet and the relative positioning mark on the film reach a combination point synchronously, achieving the beneficial effects of precise positioning and film saving,

The above processing unit can be connected to and mounted with one or more reel printing devices, a single-piece printing device or a coating device. The coating device generally refers to a coating or printing device used in the market generally, wherein they can include flexo, gravure, offset, inkjet coating, etc., the coating device can be glazed and printed. For the processing unit which is connected to and mounted with the single-piece printing device, a gripper on its impression barrel can adopt the gripper with a vacuum suction device, to avoid the collision with the film and the pressure roller.

FIG. 13 shows a structural diagram of an example of a processing system connected with a coating device 22. FIG. 14 is a structural diagram of an example of a processing system carrying out surface processing with the combination of this processing unit and an offset printer 23. A paper substrate passes through an offset printing unit 23, the uncured paper substrate with offset priming and the film material with surface grain supplied by the unwinding device 1 in the processing device fit completely at the rotation and combination point of the pressure roller and the impression barrel, after that, the film and the paper substrate which are fitted are transported to be below the cured device 3, the cured energy is utilized to cure the paint on the paper substrate by penetrating the film, at this time, the paint which is cured and stereotyped will be shown on the paper substrate by the way opposite to the direction of the surface grain of the film, the film is stripped from the surface of the paper substrate and rewound back by the winding device 2 in the processing device. Finally, the bagel transports the paper of which the surface is processed completely to a paper-receiving unit or other processing unit.

The specific structures of various examples of the printing processing system of the invention can be more apparently understood with the following description for the printing processing process.

A non-stop printing processing process with a plurality of stations is a casting printing process and includes the following steps:

(1), A substrate with an uncured paint is transported or pulled to a first processing unit, a film material with a surface grain supplied by an unwinding device of the first processing unit completely fits the substrate at the rotation and combination point of a pressure roller and an impression barrel, at this time, the first processing unit presses fitly the impression barrel:

(2) After a plastic film with the surface grain and the substrate with a uncured paint pass through the rotation and combination point of the pressure roller and the impression barrel and ensure the substrate and the film to be fitted completely, the film and the substrate which are fitted are transported to be below a cured device, the cured device is utilized to cure the paint on the substrate through the plastic film, at this time, the paint which is cured and stereotyped will be shown on the substrate by the way opposite to the direction of the surface grain of the film; the film is then stripped from the surface of the substrate and rewound back by a winding device of the first processing unit; finally, a transport substrate enters into the device (not shown in the figures) and transports the substrate with the processed surface onto a material-receiving unit.

When an unwinding device in the first processing unit is to unwind and be close to an axis while the winding device is to fully wind, the unwinding device and the winding device in a second processing device start to be accelerated by a system via the control of a computation or inductive switch of a computer, when the linear speed of the film is the same with that of the rotation speed of the impression barrel, the pressure roller, a stripped roller and the curing device which are fixed on a sub wall plate of the second processing unit are lowered at the same time so that the pressure roller fits the impression barrel, that is, the second processing unit presses fitly the impression barrel; at this time, the pressure roller, the stripped roller and the curing device which are in the first processing unit and fixed on the sub wall plate are lifted at the same time, when the sub wall plate moves until the straight line between the bottom of the pressure roller and that of the stripped roller is higher than the highest point of the impression barrel, a first unwinding device completes the winding before the unwinding device of the second processing unit completes the unwinding, and is still to wait for the unwinding device in the second processing unit, when the second processing unit is to complete the unwinding, the first processing unit restarts to unwind, forming a cycle operation between the processing units. The above first processing unit and the second processing unit share one the impression barrel to mutually carry out the above processes. If it is needed, the above first processing unit and the second processing unit also utilize their own impression barrels to mutually carry out the above processes.

When the substrate is too thick and causes the pressure roller to jump when the front edge of the substrate enters into the combination point, under the control of the computation or inductive switch of the computer, before the substrate enters into a film supply device, the pressure roller is lifted to the height corresponding to the thickness of the substrate.

(5). A transport substrate enters into a device (for example, a transport belt, a barrel, etc.), transports the substrate with the processed surface onto a material-receiving unit again or is again connected with a reel printing device, a single-piece printing device, a glazing unit device or other processing units. Therefore, the mutually changing volume cycle between the first processing unit and the second processing unit continues successively and need not stop the machine to automatically change the volume, finally, the processing device in the processing system of the invention completes the surface processing for paper.

A non-stop priming processing process with a plurality of stations is a hot stamping processing process and includes the following steps:

(1) A substrate with an uncured adhesive is transported or pulled to a first processing unit by a transport device such as the transport belt, a gripper and so on or a pulling device, a hot stamping film supplied by an unwinding device of the first processing unit completely fits the substrate at the rotation and combination point of a pressure roller and an impression barrel, at this time, the first processing unit presses fitly the impression barrel;

(2) After the hot stamping film and the substrate with an uncured adhesive pass through the rotation and combination point of the pressure roller and the impression barrel and ensure the substrate and the hot stamping film to be fitted completely, the film and the substrate which are fitted are transported to be below the cured device, the cured device is utilized to cure the adhesive on the substrate through a plastic film, at this time, the cured adhesive is bonded with a sprayed aluminium layer on the surface of the film; the hot stamping film is then stripped from the surface of the substrate and wound back by a winding device of the first processing unit, meanwhile, the sprayed aluminium layer feeling like metal is shown on the substrate where the adhesive is originally placed; finally, a transport substrate enters into the device, and transports the substrate with a processed surface onto a material-receiving unit.

When a hot stamping process is carried out, the film shall be replaced based on requirement. If the second impression place can avoid the used or transferred place, the film can continue to be used. If the impression place cannot be avoided, the film need be replaced. Others are similar to the above casting printing process.

The structure and coordinating relation of a processing system of the invention can be more apparently understood with the combination of following application examples of a processing process of the invention:

FIGS. 1-4 show one example of the application of a processing process of invention:

After the paper is printed and glazed through a reel, the paper enters into the processing system together with the film with a surface grain at the same time, at this time, the second processing device is still and at the place where the impression barrel presses separately and is standby, the paper 7 with an uncured paint is pulled and completely fit at the rotation and combination point of the pressure roller 4 and the impression barrel 6 together with a film material with the surface grain supplied by an unwinding device 1 in a first processing device. After that, the film and the paper 7 which are fitted are transported to be below the cured device 3, the cured energy is utilized to cure the paint on the paper 7 by penetrating the film, at this time, the paint which is cured and stereotyped will be shown on the paper by the way opposite to the direction of the surface grain of the film, then, the film is stripped from the surface of the paper 7 and rewound back by the winding device 2 in the first processing device, see FIG. 1. Finally, the barrel transports the paper of which the surface is processed completely to a paper-receiving unit or other processing units.

When the unwinding device 1 in the first processing unit is to unwind and be close to the axis while the winding device 2 is to fully wind, the unwinding device 8 and the winding device 9 in the second processing device start to be accelerated, by a processing system via the control of a computation or inductive switch of a computer, when the linear speed of the film is the same with that of the rotation speed of the impression barrel 6, the pressure roller IL a stripped roller 12 and the curing device 10 which are fixed on a sub wall plate are lowered at the same time, so that the pressure roller 11 fits the impression barrel 6, that is, the second processing device presses fitly the impression barrel, see FIG. 2. After that, the pressure roller 4, the stripped roller 5 and the curing device 3 which are in the first processing unit and fixed on the sub wall plate are lifted, when the sub wall plate moves until the straight line between the bottom of the pressure roller 4 and that of the stripped roller 5 is higher than the highest point of the impression barrel 6, the winding device 2 is independently driven to unwind at the speed higher the speed of the impression barrel 6, the unwinding device 1 is then rewound at a high speed. Meanwhile, the paper 7 with the uncured paint continues to be transported or pulled and fits completely at the rotation and combination point of the pressure roller 11 and the impression barrel 6 together with the film supplied by the unwinding device in the second processing device. After the paper is ensured to fit completely the film, the film and the paper which are fitted are transported to be below the cured device 10, the cured energy is utilized to cure the paint on the paper 7 by penetrating the film, at this time, the paint which is cured and stereotyped will be shown on the paper by the way opposite to the direction of the surface grain of the film, then, the film is stripped from the surface of the paper 7 and rewound back by the winding device 9 in the second processing device, see FIG. 3. Finally, the barrel transports the paper of which the surface is processed completely to the paper-receiving unit or other processing units.

When the unwinding device 8 in the second processing device is to unwind and be close to an axis while the winding device 9 is to fully wind, the pressure roller of the first processing device presses fitly a pressure barrel 6 with the adoption of the above method, meanwhile, the pressure roller 11 of the second processing device presses separately the pressure bane! 6, furthermore, the unwinding device 8 in the second processing device starts to rewind at a high speed, see FIG. 4, this prepares the restarting unwinding when the unwinding device 1 of the first processing device is to completely unwind. Therefore, the mutually changing volume cycle between the first processing unit and the second processing unit continues successively and need not stop the machine to automatically change the volume, finally the processing device in the system completes the surface processing for paper.

The judging standard that the unwinding device in the above first processing device unwinds and is close to an axis while the winding device is to fully wind refers to that the system judges the linear speed the film of the unwinding device and the winding device in the second processing device is exactly the same with the linear speed of the impression barrel 6 when the unwinding device of the first processing device ends unwinding while the winding device fully wind, so that gap-free exchange of the pressing fitly and pressing separately between the two can be realized, and vice versa.

FIGS. 5-8 show another example of the application of a processing process of the invention:

The paper substrate 7 with an uncured adhesive together with a cramping film enters into the processing system at the same time however, the first processing device and the second processing device of the processing system are both provided with their own impression barrel 6 and the impression barrel 13. At this time, the second processing device is still and at the place where the impression barrel presses separately and is standby, the paper 7 with the uncured adhesive is pulled and fits completely at the rotation and combination point of the pressure roller 4 and the impression barrel 6 together with the cramping film supplied by the unwinding device in the first processing device. After that, the cramping film and the paper substrate 7 which are fitted are transported to be below the cured device 3, the cured energy is utilized to cure the adhesive on the paper substrate 7 through the cramping film, the adhesive which is cured and tackified is to be firmly bonded with the sprayed aluminium layer at the corresponding place below the surface of the film, then, the sprayed aluminium layer on the film is stripped from the film and adheres to the surface of the paper substrate 7 by the winding device 2 in the first processing device, see FIG. 5. Finally, the barrel transports the paper substrate with the aluminium layer to the paper-receiving unit or other processing units again.

When the unwinding device 1 in the first processing unit is to unwind and be close to the axis while the winding device 2 is to fully wind, the unwinding device 8 and the winding device 9 in the second processing device start to be accelerated by a processing system via the control of a computation or inductive switch of a computer, when the linear speed of the cramping film is the same with that of the rotation speed of the impression barrel 13, the pressure roller 11, the stripped roller 12 and the curing device 10 which are fixed on a sub wall plate are lowered at the same time, so that the pressure roller 11 fits the impression barrel 13, see FIG. 6. After that, the pressure roller 4, the stripped roller 5 and the curing device 3 which are in the first processing unit and fixed on the sub wall plate are lifted, when the sub wall plate moves until the straight line between the bottom of the pressure roller 4 and that of the stripped roller 5 is higher than the highest point of the impression barrel 6, the winding device 2 is independently driven to unwind at the speed higher the speed of the impression barrel 6, the unwinding device 1 is then rewound at a high speed. Meanwhile, the paper substrate 7 with the uncured adhesive continues to be transported or pulled and fits completely at the rotation and combination point of the pressure roller 11 and the impression barrel 13 together with the cramping film supplied by the unwinding device in the second processing device. After the paper substrate 7 is ensured to fit completely the cramping film, the cramping film and the paper substrate 7 which are fitted are transported to be below the cured device 10, and cured by the cured energy through the cramping film, the cured energy is utilized to cure the adhesive on the paper substrate 7 through the cramping film, the adhesive which is cured and tackified is to be firmly bonded with the sprayed aluminium layer at the corresponding place below the surface of the film, then, the sprayed aluminium layer on the film is stripped from the film and adheres to the surface of the paper substrate by the winding device 9 in the second processing device, see FIG. 7. Finally, the paper substrate of which the surface is processed and has an aluminium layer is transported to the paper-receiving unit or other processing units.

When the unwinding device 8 in the second processing device is to unwind and be close to an axis while the winding device 9 is to fully wind, the pressure roller of the first processing device presses fitly the pressure barrel 6 with the adoption of the above method, meanwhile, the pressure roller 11 of the second processing device presses separately the pressure barrel 13, furthermore, the unwinding device 8 in the second processing device starts to rewind at a high speed, see FIG. 8, this prepares the restarting unwinding when the unwinding device 1 of the first processing device is to completely unwind. Therefore, the mutually changing volume cycle between the first processing unit and the second processing unit continues successively and need not stop the machine to automatically change the volume, finally, the processing device in the system completes the cramping surface processing for the paper substrate.

FIGS. 9-12 show another example of the application of a processing process of the invention:

See FIG. 9, after a plastic sheet is glazed with the glazing unit and before the plastic sheet enters into the first processing device of the processing system, the first set of electric eye devices 15 detects a distinguishable mark on the film supplied by the unwinding device 1 and coordinates the operation speed to calculate the time when the mark reaches the combination point of both of the film and the plastic sheet 7. Based on the predetermined time difference that the corresponding positioning points of the positioning mark on the film and the plastic sheet 7 reach the combination point, the tension of the film itself is changed by adjusting/slowing the servo control speed of the active type set A of compaction rollers 14 in a positioning tensioning device unit penetrating the film, to further change the length of the film. However, set B of the compaction rollers 16 in the positioning tensioning device has the same operating speed with a main engine to determine the synchronicity of the corresponding points of the film and the plastic sheet 7 which enter into the combination point. Servo control refers to the control of the rotation speed by the frequencies of the input or pulse of an analog quantity.

At this time, the second processing device is still and at the place where the impression barrel 13 presses separately and is standby, the plastic sheet 7 with the uncured paint is pulled and completely fit at the rotation and combination point of the pressure roller 4 and the impression barrel 6 together with the film which is positioned, tensioned and supplied by the unwinding device 1 in the first processing device. After that, the film and the plastic sheet 7 which are fitted are transported to be below the cured device 3, the cured energy is utilized to cure the paint on the paper substrate by penetrating the film, at this time, the paint which is cured and stereotyped will be shown on the plastic sheet 7 by the way opposite to the direction of the surface gain of the film, then, the film is stripped from the surface of the plastic sheet 7 and rewound back by the winding device 2 in the first processing device. Finally, the barrel transports the plastic sheet 7 of which the surface is processed completely to the material-receiving unit or other processing units.

When the unwinding device 1 in the first processing unit is to unwind and be close to the axis while the winding device 2 is to filly wind, the unwinding device 8 and the winding device 9 in the second processing device start to be accelerated by a processing system via the control of a computation or inductive switch of a computer, when the linear speed of the film is the same with that of the rotation speed of the impression barrel 13, the pressure roller 11, the stripped roller 12 and the curing device 10 which are fixed on a sub wall plate are lowered at the same time, so that the pressure roller 11 fits the impression barrel 13, see FIG. 10. During the process, a first electric eye device 19 in the second processing device detects the distinguishable mark on the film supplied by the unwinding device 8 and coordinates, the operation speed to calculate the time when the mark reaches the combination point of both of the film and the plastic sheet 7. Based on the predetermined time difference that the corresponding positioning points of the positioning mark on the film and the plastic sheet 7 reach the combination point, the tension of the film itself is changed by adjusting/slowing the servo control speed of the active type set A of compaction rollers 14 in a positioning tensioning device unit penetrating the film, to further change the length of the film, achieving the positioning and tensioning of the film. After that, the pressure roller 4, the stripped roller 5 and the curing device 3 which are in the first processing unit and fixed on the sub wall plate are lifted, when the sub wall plate moves until the straight line between the bottom of the pressure roller 4 and that of the stripped roller 5 is higher than the highest point of the impression barrel 6, the winding device 2 is independently driven to unwind at the speed higher the speed of the impression barrel 6, the unwinding device 1 is then rewound at a high speed. Meanwhile, the plastic sheet 7 with the uncured paint continues to be transported or pulled and fits completely at the rotation and combination point of the pressure roller 11 and the impression barrel 13 together with the film which is positioned, tensioned and supplied by the unwinding device 8 in the second processing device. After the plastic sheet 7 is ensured to fit completely the film, the film and the plastic sheet 7 which are fitted are transported to be below the cured device, the cured energy is utilized to cure the paint on the plastic sheet 7 by penetrating the film, at this time, the paint which is cured and stereotyped will be shown on the plastic sheet 7 by the way opposite to the direction of the surface grain of the film, then, the film is stripped from the surface of the plastic sheet 7 and rewound back by the winding device 9 in the second processing device. Finally, the barrel transports the plastic sheet 7 of which the surface is processed completely to the material-receiving unit or other processing units, see FIG. 11.

When the unwinding device 8 in the second processing device is to unwind and be close to the axis while the winding device 9 is to fully wind, the pressure roller of the first processing device presses fitly the pressure barrel 6 with the adoption of the above method, meanwhile, the pressure roller 11 of the second processing device presses separately the pressure barrel 13, furthermore, the unwinding device 8 in the second processing device starts to rewind at a high speed, see FIG. 12. This prepares the restarting unwinding when the unwinding device 1 of the first processing device is to completely unwind. Therefore, the mutually changing volume cycle between the first processing unit and the second processing unit continues successively and need not stop the machine to automatically change the volume, finally, the processing device in the system completes the positioning, the tensioning and the surface processing for the plastic sheet.

FIG. 13 shows another example of the application of a processing process of the invention:

Wherein in addition to the glazing unit (not shown) before the first processing unit, one coating unit 22 is provided between the first processing device and the second processing device again.

The paper substrate 7 which has been glazed and uncured completely fits at the rotation and combination point of the pressure roller 4 and the impression barrel 6 by the film material with the surface grain supplied by the unwinding device 1 in the first processing device. After that, the film and the paper substrate which are fitted are transported to be below the cured device 3, the cured energy is utilized to cure the paint on the paper substrate 7 by penetrating the film, at this time, the paint which is cured and stereotyped will be shown on the paper substrate 7 by the way opposite to the direction of the surface grain of the film, then, the film is stripped from the surface of the paper substrate 7 and rewound back by the winding device 2 in the first processing device. The paper substrate 7 with the surface grain of the film passes through the coating unit 22 again, the paper substrate 7 of which the surface is glazed by the second time and has the surface grain I of the film and the film material with the surface grain II supplied by the unwinding device 8 in the second processing device fit completely at the rotation and combination point of the pressure roller 11 and the impression barrel 13. After that, the film and the paper substrate which are fitted are transported beneath the cured device 10, so that the cured energy can be utilized to cure the paint on the paper substrate 7 by penetrating the film. At present, the paint which is cured and stereotyped is shown on the paper substrate with the surface grain in the opposite direction of the surface grain II of the film. Then, the film is stripped from the surface of the paper substrate 7 and rewound back by the winding device 2 in the first processing device. Finally, mutual register is carried out by two different coating units coordinating the film with two different surface grains, and a pattern combining surface grain I and surface grain II is shown on the paper substrate.

Although the invention discloses the examples and drawings for the purpose of the description, those skilled in the art shall understand that various replacements, changes and modifications are possible without departing from the spirit and scope of the invention and appended claims, therefore, the scope of the invention is not limited to the contents disclosed by the examples and drawings. 

1. A non-stop printing processing system with a plurality of stations, comprising: a first processing unit and a second processing unit, each the processing unit comprises a set of film supply devices, a pressure roller, a stripped roller and a cured device which are independent, each the film supply device comprises a winding device and an unwinding device which are independently driven and can be rotated positively and negatively, the pressure roller, the stripped roller and the cured device are mounted by a lift type; an impression barrel, when a substrate is processed, the impression barrel is positioned under the substrate, a processed substrate is positioned between a processing unit processing the substrate and the impression barrel.
 2. The printing processing system according to claim 1, wherein the number of the impression barrel is one, the first processing unit and the second processing unit share the impression barrel.
 3. The printing processing system according to claim 1, wherein the impression barrel comprises a first impression barrel and a second impression barrel, the first processing unit uses the first impression barrel, the second processing unit uses the second impression barrel.
 4. The printing processing system according to claim 1, wherein each the processing unit still comprises a main wall plate and a sub wall plate, the sub wall plate can move on the main wall plate, the pressure roller, the stripped roller and the cured device of each the processing unit are all mounted on their own sub wall plate.
 5. The printing processing system according to claim 4, wherein rails are provided between the main wall plate and the sub wall plate, the sub wall plate coordinates the rails to move up and down by a lift control device, so that the film processed by each the independent processing unit conveniently operates together with the impression barrel in different directions without friction because the sub wall plate can move upwards and cause the film to be broken away from the impression barrel.
 6. The printing processing system according to claim 4, wherein the cured device is fixedly mounted on the sub wall plate; wherein the processing unit still comprises the lift control device of the pressure roller and the lift control device of the stripped roller, with the lift control device of the pressure roller and the lift control device of the stripped roller, the pressure roller and the stripped roller can be mounted on the sub wall plate by moving up and down, respectively; wherein the lift control device can be an air cylinder, a mechanical cam or an electronic cam.
 7. (canceled)
 8. (canceled)
 9. The printing processing system according to claim 1, wherein one positioning tensile device is provided among, the pressure roller, the winding device and the unwinding device by the film supply device in each the processing unit respectively to ensure the stable tension of the film in the winding and unwinding directions.
 10. The printing processing system according to claim 9, wherein the first processing unit is provided therein with at least one the positioning tensile device of the film of a distinguishable positioning mark and/or different textures, a positioning processing system consists of at least one the positioning tensile device.
 11. The printing processing system according to claim. 9, wherein the second processing unit is provided therein with at least one the positioning tensile device of the film of the distinguishable positioning mark and/or the different textures, the positioning processing system consists of at least one the positioning tensile device.
 12. The printing processing system according to claim 9, wherein the positioning tensile device comprises a first electric eye device provided as at least one positioning or electric device which can detect the distinguishable positioning mark and an edge on the film, a first set of compaction rollers with an independent power two of which are taken as one set to be pressed with each other and rotate at the speed less than or equal to the linear speed of the impression barrel, and a second set of the compaction rollers with the independent power two of which are taken as one set to be pressed with each other.
 13. The printing processing system according to claim 1, wherein the processing unit is connected to and mounted with one or more reel printing devices, a single-piece printing device or a coating unit device.
 14. The printing processing system according to claim 13, wherein when the processing unit is connected with one single-piece printing device, a gripper of the processing unit on the impression barrel adopts the gripper with a vacuum suction device.
 15. The printing processing system according to claim 1, wherein the system is provided to operate based on the following steps: in Step 1, the first processing unit presses fitly the impression barrel to be processed, at this time the unwinding device of the first processing unit unwinds, the winding device winds, the second processing unit presses separately the impression barrel and is standby; in Step 2, the first processing unit continues to press fitly the impression barrel to be processed, at this time, the unwinding device of the second processing unit unwinds, the winding device winds, and prepares to press fitly the impression barrel; in Step 3, the second processing unit presses fitly the impression barrel to be processed, the unwinding device of the second processing unit unwinds, the winding device winds, the first processing unit presses separately the impression barrel and rewinds; at this time, the winding device of the first processing unit winds, the unwinding device winds, in Step 4, the second processing unit continues to press fitly the impression barrel to be processed, at this time, the unwinding device of the first processing unit unwinds, the winding device winds, and prepares to press fitly the impression barrel; in Step 5, the first processing unit presses fitly the impression barrel to be processed, the unwinding device of the first processing unit unwinds, the winding device winds, the second processing unit presses separately the impression barrel and rewinds; at this time, the winding, device of the second processing unit unwinds, the unwinding device winds, circulation is carried out from the above Step 1 to Step 5, and vice versa.
 16. The printing processing system according to claim 15, wherein in Step 2, when the unwinding device of the first processing device is to unwind and be dose to an axis while the winding device is to fully wind, the unwinding device and the winding device of the second processing unit start to be accelerated until when the linear speed of the film is the same with that of the rotation speed of the impression barrel, the second processing unit presses fitly the impression barrel; in Step 4, when the unwinding device of the second processing device is to unwind and be close to an axis while the winding device is to frilly wind, the unwinding device and the winding device of the first processing unit start to be accelerated until when the linear speed of the film is the same with that of the rotation speed of the impression barrel, the first processing unit presses fitly the impression barrel.
 17. The printing processing system according to claim 4, wherein the system is provided to operate with the following ways: the substrate is transported or pulled to the first processing unit, the pressure roller of the first processing unit fits the impression barrel, that is, the first processing unit presses fitly the impression barrel, the film supplied by the unwinding device of the first processing unit fits the substrate at the rotation and combination point of the pressure roller and the impression barrel of the first processing unit, the film is stripped from the surface of the substrate and rewound back by the winding device of the first processing unit; when the unwinding device in the first processing unit is to unwind and be close to the axis while the winding device is to fully wind, the unwinding device and the winding device in the second processing device start to be accelerated, when the linear speed of the film is the same with that of the rotation speed of the impression barrel, the pressure roller, the stripped roller and the cured device which are fixed on the sub wall plate of the second processing unit are lowered at the same time, so that the pressure roller fits the impression barrel, that is, the second processing unit presses fitly the impression barrel: at this time, the pressure roller, the stripped roller and the cured device which are in the first processing unit and fixed on the sub wall plate are lifted at the same time, when the sub wall plate of the first processing unit moves until the straight line between the bottom of the pressure roller and that of the stripped roller is higher than the highest point of the impression barrel, the unwinding device of the first processing unit completes the winding before the unwinding device of the second processing unit completes the unwinding, and is still to wait for the unwinding device in the second processing unit, when the unwinding device in the second processing unit is to unwind and be close to the axis Mine the winding device is to fully wind, the unwinding unit of the firs processing unit restarts to unwind, forming the circulation of the processing unit between the above two phases.
 18. The printing processing system according to claim 1, wherein the film supplied by each the film supply device has different transport lines, respectively.
 19. A non-stop printing processing process with a plurality of stations, wherein: providing a first processing unit and a second processing unit, providing each the processing unit comprising a set of film supply devices, a pressure roller, a stripped roller and a cured device which are independent; providing each the film supply device comprising a winding device and an unwinding device which are independently driven and can be rotated positively and negatively; providing the pressure roller, the stripped roller and the cured device which can be mounted by a lift type; providing an impression barrel, when a substrate is processed, the impression barrel is positioned under the substrate, a processed substrate is positioned between a processing unit processing the substrate and the impression barrel.
 20. The printing processing process according to claim 19 wherein the process further comprises the following steps: providing the pressure roller, the stripped roller and the cured device which are in each the processing unit and mounted on a sub wall plate which can move on a main wall plate; wherein rails are provided between the main wall plate and the sub wall plate, so that the sub wall plate coordinates the rails mounted on the main wall plate to move up and down by a lift control device, so that the film processed by each the independent processing unit conveniently operates together with the impression barrel in different directions without friction because the sub wall plate can move upwards and cause the film to be broken away from the impression barrel.
 21. The printing processing process according to claim 19, wherein the process comprises the following steps: in Step 1, the first processing unit presses fitly the impression barrel to be processed, at this time, the unwinding device of the first processing unit unwinds, the winding device winds, the second processing unit presses separately the impression barrel and is standby; in Step 2, the first processing unit continues to press fitly the impression barrel to be processed, at this time, the unwinding device of the second processing unit unwinds, the winding device winds, and prepares to press fitly the impression barrel; in Step 1, the second processing unit presses fitly the impression barrel to be processed, the unwinding device of the second processing unit unwinds, the winding device winds, the first processing unit presses separately the impression barrel and rewinds; at this time, the winding device of the first processing unit winds, the unwinding device winds, in Step 4, the second processing unit continues to press fitly the impression barrel to be processed, at this time, the unwinding device of the first processing unit unwinds, the winding device winds, and prepares to press fitly the impression barrel; in Step 5, the first processing unit presses fitly the impression barrel to be processed, the unwinding device of the first processing unit unwinds, the winding device winds, the second processing unit presses separately the impression barrel and rewinds; at this time, the winding, device of the second processing unit unwinds, the unwinding device winds; circulation is carried out from the above Step 1 to Step 5, and vice versa.
 22. The printing processing process according to claim 20, wherein: in Step 2, when the unwinding device of the first processing device is to unwind and be close to an axis while the winding device is to fully wind, the unwinding device and the winding device of the second processing unit start to be accelerated until when the linear speed of the film is the same with that of the rotation speed of the impression barrel, the second processing unit presses fitly the impression barrel; in Step 4, when the unwinding, device of the second processing device is to unwind and be close to an axis while the winding device is to fully wind, the unwinding device and the winding device of the first processing unit start to be accelerated until when the linear speed of the film is the same with that of the rotation speed of the impression barrel, the first processing unit presses fitly the impression barrel. 